Single-walled carbon nanotube field effect transistor

Ding L, Wang S, Zhang Z et al (2009) Y-contacted high-performance n-type single-walled carbon nanotube field-effect transistors scaling and comparison with Sc-contacted devices. Nano Lett 9 4209-4214... [Pg.169]

Liu S, Shen Q, Cao Y et al (2010) Chemical functionalization of single-walled carbon nanotube field-effect transistors as switches and sensors. Coord Chem Rev 254 1101-1116... [Pg.169]

Alcohol vapor sensors based on single-walled carbon nanotube field effect transistors , Nano Letters 3, 877 (2003). [Pg.420]

Siwy et al. demonstrated the utility of a single conically shaped gold nanotube that was embedded in a mechanically and chemically robust polymeric membrane [142]. They reported biofunctionalized conical Au nanotubes, which are potentially useful for obtaining highly sensitive and selective protein biosensors. So et al. introduced a single walled carbon nanotube field effect transistor (SWNT-FET) combined with aptamers as an alternative to the corresponding antibody [143]. [Pg.130]

Someya, T., Small, J., Kim, R, Nuckolls, C. and Yardley, J. T. (2003) Alcohol vapor sensors based on single-walled carbon nanotube field effect transistors . Nano Letters, 3,877-81. [Pg.384]

Liang, X., Wang, S., Wei, X., Ding, L., Zhu, Y., Zhang, Z., Chen, Q, Li, Y., Zhang, J., Peng, L.-M., 2009. Towards entire-carbon-nanotube circuits the fabrication of single-walled-carbon-nanotube field-effect transistors with local multiwaUed-carbon-nanotube interconnects. Advanced Materials 21,1339—1343. [Pg.396]

Martel, R. Schmidt, T. Shea, H. R. Hertel, T. Avouris, P. 1998. Single- and multi-wall carbon nanotube field-effect transistors. Appl. Phys. Lett. 73 2447-2449. [Pg.374]

Martel R, Schmidt T, Shea HR, Hertel T, Avouris P (1998) Single and multi-wall carbon nanotube field- effect transistors. Appl Phys Lett 73 2447... [Pg.950]

Carbon nanotube field-effect transistor based on individual single-walled carbon nanotubes... [Pg.358]

G. Zheng et al., Transition of single-walled carbon nanotubes from metallic to semiconducting in field-effect transistors by hydrogen plasma treatment. Nano Lett. 7, 1622 (2007)... [Pg.314]

Field-effect transistor (FET) behavior was observed by scanning tunneling microscopy (STM) for a single-walled carbon nanotube curled over parallel Au lines, with the STM acting as a gate electrode [140]. [Pg.811]

The other interesting material for electronics is carbon nanotubes. We have shown the application of individual single-walled carbon nanotubes for field effect transistors (FETs) [3]. Carbon nanotubes (CNT) or CNT bundles can be placed between two carbon electrodes playing the role of source and drain. The gate electrode can be made of thin metal stripe under the dielectric film in the region between source and drain. [Pg.465]

Figure 3.14 (a) SEM images for single-walled carbon nanotubes (SWCNT) synthesized by chemical vapor deposition (CVD) with iron-rich ceramic particles derived from patterned PS-fc-PFF.MS islands as catalyst. (From Lu et al.57 Reproduced with permission.) (b) Schematic and AFM height image (11 pm2) of high-throughput field-effect transistors (FETs) from SWCNTs afforded from pyrolyzed PS- -PFEMS films. (From Lastella et al.59 Reproduced with permission.)... [Pg.155]

Figure 14.7 Four representative configurations of carbon nanotube sensors (a) field-effect transistor with a single single-walled carbon nanotube conduction channel (b) carbon nanotube film resistive sensor (c) carbon nanotube network field-effect transistor (d) entangled vertical carbon nanotube film as a resistive sensor.

Abstract This chapter focuses on the performances of gas sensors based on single-walled carbon nanotubes (SWCNTs).The chapter first reviews chemiresistor and field-effect transistor sensor architectures. Theoretical models based on doping effect and Schottky barrier modulation are correlated to the percolation of metallic carbon nanotubes. The functionalisation strategies of carbon nanotubes, used to acquire a gas selectivity, are discussed and offer promising application for the monitoring of air quality, or military and medical applications. [Pg.356]

N. Izard, S. Kazaoui, K. Hata, T. Okazaki, T. Saito, S. lijima, andN. Minami, Semiconductor-enriched single wall carbon nanotube networks applied to field effect transistors, Appl. Phys. Lett, 92, 243112 (2008). [Pg.260]

On the other hand, a nanoparticle enhancement approach has been described by Dong et al. [71] to improve the detection sensitivity of field-effect transistors based on single-walled carbon nanotube networks (SNFETs). Figure 4.12 shows as the target DNA was hybridized with probe DNA on the device, reporter DNA labeled with Au-NPs flank a segment of the target DNA sequence. The amplified change in drain current allowed a DNA concentration down to 100 fM to be detected. [Pg.129]

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